Defining 'Energy Sources'
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Defining 'Production & Conversion'
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Defining 'Forms of Energy'
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Defining 'Energy Uses'
Modern transportation infrastructure has made the world more and more connected. In the last 2000 years, humanity has moved from relying horse carriages and ships with sails to a plethora of mechanical transportation systems that can cover large distances in very small times. While it might have taken a sailing ships weeks to cross the Atlantic from Europe to the Eastern Coast of the United, the same trip can be done today by airplane in less than 6 hours. In the last 200 years, transportation has not only been modernized, but also commoditized so that regular consumers can afford to move themselves over significant distance rather easily.
The car is a great example of the modernization of transportation: The invention of the automobile in the late 19th century by the German engineer Karl Friedrich Benz was followed by the commercialization of the personal automobile by the American entrepreneur Henry Ford, as well as substantial technological progress from global efforts from multiple automobile pioneers, have lead to the development of the modern car. The result of these various efforts has been an ubiquitous presence of cars on modern highway systems. The world currently sustain over 1 billion cars and is moving quickly to 2 billion, with 85 million personal vehicles sold in 2014 alone. Even though the presence of cars and modern transportation system has substantially improved modern lives and made great strides, these same have also generated a set of tremendous challenges that will most likely define the future of transportation:
A reasonable approach to increase the transportation energy efficiency of various systems is to decrease by using lighter materials. The most promising material for the the automobile and the aviation industry is carbon fiber, a material that is stronger and significantly lighter than aluminum, which is used as the body for nearly all of today’s cars. Reducing the weight of would substantially increase fuel economy by more than 50%, and some automobile are already working on bringing carbon fiber to their newer models, such BMW’s i3.
Another approach to increase energy efficiency is to increase the efficiency of the powertrain that sustains the engine of the vehicle. An electric powertrain has an inherently higher efficiency than an internal combustion engine, since the energy is transferred directly to the wheels and does not an energy generation process to propel the vehicle forward. A switch to electric cars could lead to a systemic change in the transportation that could translate to massive benefits. Stefan Heck, a consulting professor at Stanford’s Precourt Institute for Energy, believes that the future of transportation lies in Automated, Connected, Electric, Shared (ACES) vehicles. ACES takes advantage of the fact that cars are becoming more and more electronically equipped, and that software is becoming a more and more critical component in transportation. Tesla Motors, for example, recently fixed a major problem with a simple software upgrade as opposed to having to issue a recall for its cars. Autonomous cars, such as the Delphi driverless car, which is currently driving from California to New York, would also free up consumers to spend their otherwise and could cause tremendous systemic changes when combined with ride-sharing.
This combination would allow ride-sharing to become automized and optimized by smarter algorithms. Currently it costs about $1.20/mile to transport a person using, but using ACES that cost of transportation could be reduced to 67 cents/mile with effective ride-sharing and even to 10 cents/mile with full implementation of ACES.
The future of transportation presents a substantial challenge, but also a real opportunity to overhaul the system with valuable innovation. At this year’s Cleantech Forum in San Francisco, entrepreneurs from around the world showcased their ideas that are already the process of integrating cleantech into transportation. Qaunergy Systems is developing LIDAR sensors that would allow autonomous vehicles to “see” and allow the software to make driving decision based on those inputs; Clean Motion is launching an electrically powered carbon fiber ZBee tuk-tuk in South-East Asia to modernize a transportation medium for millions of people. Moreover, the integration of technological and business model innovation has the potential to overhaul the transportation system into a service model, so that both transportation and cleantech can be provided as a service that would catalyze innovation in the sector and improve the life of regular consumers worldwide.